Background: Nature and intensity of physical activity may influence cognition, coping mechanisms and overall personality of an individual. The objective of this cross-sectional study was to compare cognition, coping styles and vedic personality among individuals practicing different lifestyle.




Methods: Thirty-nine healthy young adults of both gender (27.63±4.04 years) were recruited and categorized into three groups; i.e. yoga, physical activity or sedentary lifestyle groups. Participants were assessed on cognition, coping styles and Vedic personality inventory (VPI). Verbal-n-back and Stroop tasks were performed using 3 Tesla MRI scanner. Task Based Connectivity (TBC) analysis was done using CONN toolbox in SPM.




Results: There were no significant differences in the cognitive domains across the groups. The planning (p=0.03) and acceptance domain (p=0.03) of the Brief COPE scale showed difference across the groups. Post-hoc analysis revealed that planning and acceptance scores were distinctly higher in the physical activity group, however, there was no difference between physical activity group and yoga practitioners. Similarly, in the VPI, Sattva (p=0.003), Rajas (p=0.05) and Tamas (p=0.01) were different across the groups, and the post hoc analysis showed superiority in Sattva scores in Yoga group, meanwhile, both Rajas and Tamas were higher in the physical activity group. Yoga practitioners preferentially recruited left Superior Frontal Gyrus in relation to the physically active group and precuneus in relation to the sedentary lifestyle group.




Conclusion: The study revealed that yoga practitioners had a distinct higher sattva guna and preferentially recruited brain areas associated with self-regulation and inhibitory control.

Background: Nature and intensity of physical activity may influence cognition, coping mechanisms and overall personality of an individual. The objective of this cross-sectional study was to compare cognition, coping styles and vedic personality among individuals practicing different lifestyle.


Methods: Thirty-nine healthy young adults of both gender (27.63±4.04 years) were recruited and categorized into three groups; i.e. yoga, physical activity or sedentary lifestyle groups. Participants were assessed on cognition, coping styles and Vedic personality inventory (VPI). Verbal-n-back and Stroop tasks were performed using 3 Tesla MRI scanner. Task Based Connectivity (TBC) analysis was done using CONN toolbox in SPM.


Results: There were no significant differences in the cognitive domains across the groups. The planning (p=0.03) and acceptance domain (p=0.03) of the Brief COPE scale showed difference across the groups. Post-hoc analysis revealed that planning and acceptance scores were distinctly higher in the physical activity group, however, there was no difference between physical activity group and yoga practitioners. Similarly, in the VPI, Sattva (p=0.003), Rajas (p=0.05) and Tamas (p=0.01) were different across the groups, and the post hoc analysis showed superiority in Sattva scores in Yoga group, meanwhile, both Rajas and Tamas were higher in the physical activity group. Yoga practitioners preferentially recruited left Superior Frontal Gyrus in relation to the physically active group and precuneus in relation to the sedentary lifestyle group.


Conclusion: The study revealed that yoga practitioners had a distinct higher sattva guna and preferentially recruited brain areas associated with self-regulation and inhibitory control.

1 Manjunath NK, "mproved performance in the Tower of London test following yoga" 45 (45): 351-354, 2001

2 Charles S. Carver, "You want to measure coping but your protocol’ too long: Consider the brief cope" Springer Science and Business Media LLC 4 (4): 92-100, 1997

3 Gothe NP, "Yoga effects on brain health: A systematic review of the current literature" 5 (5): 105-122, 2019

4 Sullivan MB, "Yoga Therapy and Polyvagal Theory: The Convergence of Traditional Wisdom and Contemporary Neuroscience for Self-Regulation and Resilience" 12 : 2018

5 Zeidan F, "The neural mechanisms of mindfulness-based pain relief: a functional magnetic resonance imaging-based review and primer" 4 (4): 2019

6 Van Dijk KR, "The influence of head motion on intrinsic functional connectivity MRI" 59 (59): 431-438, 2012

7 Herold F, "The contribution of functional magnetic resonance imaging to the understanding of the effects of acute physical exercise on cognition" 10 (10): 2020

8 Pershad D, "The construction & standardization of a clinical test of memory in simple hindi (No. 2)" National Psychological Corporation 1977

9 Miller R, "The Samkhya Karika" Integrative Restoration Institut 2012

10 Miller R, "The Samkhya Karika" Integrative Restoration Institut 2012

11 Sien Hu, "The Right Superior Frontal Gyrus and Individual Variation in Proactive Control of Impulsive Response" Society for Neuroscience 36 (36): 12688-12696, 2016

12 Boris C. Bernhardt, "The Neural Basis of Empathy" Annual Reviews 35 (35): 1-23, 2012

13 Stoler-Miller B, "The Bhagavad-Gita" Bantam Classics 2004

14 Li W, "Subregions of the human superior frontal gyrus and their connections" 78 : 46-58, 2013

15 Magnon V, "Sedentary behavior at work and cognitive functioning: a systematic review" 6 : 2018

16 Bawra B V, "Samkhya Karika" Brahmrishi Yoga Publications 2012

17 Bawra BV, "Samkhya Karika" Brahmrishi Yoga Publications 2012

18 P S, "Role of yoga in attention, concentration, and memory of medical students" 8 (8): 1526-, 2018

19 Giorgia Silani, "Right Supramarginal Gyrus Is Crucial to Overcome Emotional Egocentricity Bias in Social Judgments" Society for Neuroscience 33 (33): 15466-15476, 2013

20 Chetelat G, "Relationships between Lifestyle Factors and Ad Neuroimaging Biomarkers" 13 (13): P1446-P1447, 2017

21 Oken BS, "Randomized, controlled, six-month trial of yoga in healthy seniors: effects on cognition and quality of life" 12 (12): 40-47, 2006

22 Sharma MP, "Rajas and Tamas factors and quality of life in patients with anxiety disorders: A preliminary investigation" 57 (57): 388-391, 2012

23 Miho Ito, "Presentation of Coping Strategies Associated with Physical and Mental Health During Health Check-ups" Springer Science and Business Media LLC 53 (53): 297-305, 2016

24 Di Liegro CM, "Physical activity and brain health" 10 (10): 720-, 2019

25 Allport GW, "Pattern and growth in personality" Holt, Rinehart and Winston 1961

26 Chantal Villemure, "Neuroprotective effects of yoga practice: age-, experience-, and frequency-dependent plasticity" Frontiers Media SA 9 : 2015

27 Rao Shobini L, "NIMHANS neuropsychology battery-2004" National Institute of Mental Health and Neurosciences 2004

28 de Bruin EI, "Mindful2Work: Effects of Combined Physical Exercise, Yoga, and Mindfulness Meditations for Stress Relieve in Employees. A Proof of Concept Study" 8 (8): 204-217, 2017

29 C. Villemure, "Insular Cortex Mediates Increased Pain Tolerance in Yoga Practitioners" Oxford University Press (OUP) 24 (24): 2732-2740, 2013

30 Hernández SE, "Increased grey matter associated with long-term sahaja yoga meditation: A voxel-based morphometry study" 11 (11): e0150757-, 2016

31 Wylie GR, "Functional magnetic resonance imaging movers and shakers: Does subject-movement cause sampling bias?" 35 (35): 1-3, 2014

32 Steinberg SI, "Exercise, sedentary pastimes, and cognitive performance in healthy older adults" 30 (30): 290-298, 2015

33 Jayakody K, "Exercise for anxiety disorders: systematic review" 48 (48): 187-196, 2014

34 Nilsoge D, "Evaluation of attention and verbal memory in yoga practicing pre-adolescents:A cross-sectional study" 5 (5): 3-13, 2016

35 Diamond A, "Effects of physical exercise on executive functions: Going beyond simply moving to moving with thought" 2 (2): 1011-, 2015

36 Nejati S, "Effect of group mindfulness-based stress-reduction program and conscious yoga on lifestyle, coping strategies, and systolic and diastolic blood pressures in patients with hypertension" 10 (10): 140-148, 2015

37 Jaeger J, "Digit symbol substitution test" 38 (38): 513-519, 2018

38 Gothe NP, "Differences in Brain Structure and Function Among Yoga Practitioners and Controls" 12 : 2018

39 Kesse-Guyot E, "Cross-sectional and longitudinal associations of different sedentary behaviors with cognitive performance in older adults" 7 (7): e47831-, 2012

40 Singh K, "Cross-cultural differences on Gunas and other well-being dimensions" 24 : 139-146, 2016

41 Schmidt SA, "Connectivity of precuneus to the default mode and dorsal attention networks: A possible invariant marker of long-term tinnitus" 16 : 196-204, 2017

42 Larson GJ, ¯I ´svarakrsna, "Classical S¯amkhya: An Interpretation of Its History and Meaning" Motilal Banarsidass Publishers 2014

43 Whelan ME, "Can functional magnetic resonance imaging studies help with the optimization of health messaging for lifestyle behavior change? A systematic review" 99 : 185-196, 2017

44 Raghuram N, "A randomized control trial of the effect of yoga on Gunas (personality) and Health in normal healthy volunteers" 1 (1): 2-, 2008

45 Wolf DB, "A psychometric analysis of the three gunas" 84 (84): 1379-1390, 1999